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Coronary CT Angiography: Its Accuracy, Prognosis, Role in the Evaluation of Chest Pain and Emerging Technologies Lecture

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0:00

Hi, everybody.

0:01

Thank you for joining us today

0:03

for the second lecture with Dr.

0:05

Lorenz for the cardiac CTA online training course.

0:08

Just a reminder, if you have any questions, you can ask Dr.

0:11

Lorenz directly.

0:13

Um, you can also use the hand raising,

0:15

um, uh, hand raise emoji.

0:16

We will call on you, or you can also put your question in

0:19

the chat chat.

0:20

So, Dr. Loren, whenever you are ready.

0:24

Great. Hi guys. Hope everybody is well, thanks again.

0:27

Sorry, I was, um, I was in the lecture too,

0:30

and, uh, I'm sorry,

0:32

office hours too, instead of lecture two.

0:34

So got a little mixed up here, but here I am.

0:36

And here we go. So, one

0:38

of the nice things about having at least two weeks under

0:41

your belt is, is that, you know,

0:42

you can understand the anatomy, you understand the basics

0:46

of CT and acquisition.

0:48

Now it's gonna be the, um, can you talk the talk,

0:51

which is being able to then to describe why we're doing it,

0:54

what is the accuracy, the benefits,

0:57

and as well as the limitations.

0:58

And so what this, that's what this, um,

1:00

presentation in the next 45 minutes is going

1:02

to help you, uh, do.

1:05

So, um, what is CT angiogram?

1:09

Um, what is CT A or CT angiogram of the coronary arteries.

1:14

And so that's one of the components behind strengths,

1:17

which is that being able to have a high spec resolution

1:19

examination of a moving structure.

1:21

So not just something in the neurovascular bundle

1:24

for neurovascular, um,

1:26

or down in the, um, abdomen that it's, yes, it's pulsitile,

1:30

but it's not this kind of pulsitile.

1:32

So here we're gonna, uh, dive into that.

1:34

We're gonna talk about the accuracy

1:36

and then also some of the results, um,

1:38

that we can then conclude from in terms of

1:41

how this test changes management.

1:46

So, uh, strengths, that's obviously one of the big things

1:49

that we always want to, uh, get across here.

1:52

Uh, so one of the things with, uh, with that is then,

1:57

um, the sensitivity.

2:00

Um, so sensitivity, being able to say

2:02

that something is not there, right?

2:04

So getting it out.

2:05

So is the chest pain due to coronary arteries? Yes or no?

2:10

Well, um, that is one of the basis behind this examination,

2:14

and it is so good, so strong

2:17

and so useful that it has a level two a, uh,

2:22

recommendation in terms of, um, of meeting, uh,

2:28

determination of that the coronary disease is part of the,

2:33

um, problem of chest pain.

2:35

But in terms of sensitivity instead of in, in terms

2:38

of getting it out, that is saying

2:39

that the coronary arteries are not the problem.

2:41

It's a one A, which means it is the first line,

2:45

the best thing to confirm

2:46

that the coronary arteries are not.

2:48

So a lot to unpack there,

2:50

but we'll get into that in a few, in the few next slides.

2:53

The main thing to remember is sensitivity.

2:55

Saying something is not the causative

2:58

factor behind something.

2:59

So causative.

3:02

This has the best, the anatomy of the corneal arteries

3:06

and what you are able to see in terms

3:07

of origin course termination,

3:09

and then luminal blockage, gen noses and so forth.

3:12

This is one A, this is the best thing you can do

3:15

or we can do right now.

3:17

Um, and so that has a lot to go with it.

3:20

So that's the powerful prognostic portion of it.

3:23

The safe and effective, of course, as you

3:25

and I know reading a hundred coronary CTAs a day is, is

3:29

that the amount of dose that is given to an individual

3:32

by this examination is not even close to any other type

3:36

of do type of dosing exam.

3:37

By that I mean our functional nuclear imaging, um,

3:41

and some of the other types of testing, SPECT and PET and

3:44

otherwise, okay.

3:47

So a lot has happened, um, in this world.

3:51

And so we're going to talk about, um, some studies

3:54

that have occurred from 2008 all the way to 2022.

3:58

Now, new data continues to operate in this area,

4:01

but there's actually been a paucity

4:03

of data recently in the last two years.

4:06

Uh, can anybody under, uh,

4:07

gimme a good reason why we haven't had so much good, um,

4:11

data come out in the last two years, uh, related

4:15

to coronary CTA angiogram?

4:16

Anybody want to give a guess?

4:19

One of the reasons actually is Photon County.

4:22

There has been such a change in the spatial resolution,

4:24

in the temporal resolution capability of being able

4:27

to bend every single photon

4:29

and get rid of the noise that is involved.

4:31

Um, that used to be involved in sation

4:34

incitation absorption.

4:37

Now, it, it's getting to the point where we have

4:39

to reassess, um, individuals based on the new technology.

4:44

And I ran into this recently in an informed

4:46

consent, and I'll get into this.

4:48

Uh, and this is why it's important to kind

4:50

of look at the trials and particularly the informed

4:52

consenting is the do know a horn portion of it.

4:55

And are you necessarily increasing somebody's harm now

4:59

by standard convention or conventional, um, dosing

5:02

and conventional, um, acquisition?

5:04

The second and third generation CT scanners

5:07

that are out there absolutely are considered conventional

5:10

and standard, uh, of care.

5:12

And that would fall under, again, that one a sort

5:14

of evidence in terms of being able to provide

5:17

that spatial and temporal resolution.

5:19

But photon counting is, and I'm not a spokesman for them,

5:22

but the photon counting is such a complete change

5:24

in the amount of dosing.

5:25

It is such complete change in the spatial resolution.

5:29

We actually have had to pause

5:30

and determine what kind of additional harm could we be doing

5:34

to individuals who are not, um, who are not receiving

5:38

that type of exam.

5:39

And they're are receiving a different type of exam.

5:41

Now, it, it's, again, it's more than theoretical,

5:44

but at this point, and yes,

5:46

it is a statistically different significant

5:49

and different dosing,

5:50

but it's still following the standard of care

5:53

and the convention of acquisition.

5:55

So we can't get in too much into just saying, well,

5:57

everybody must have a photon counting.

5:59

But it is something you may want to look at this data

6:02

and determine as we progress from 2008

6:04

and the type of dosing and the type of spatial resolution

6:07

and how well it made a change there to then.

6:09

Now, the new revolutionary change was occurred now

6:11

with this new technology and how well that's making things.

6:15

So put that in the back of your head.

6:16

But let's talk a little bit about some of these trials here.

6:19

So these trials from 2008, uh, to about 2017, uh,

6:23

and broken up into columns of sensitivity

6:26

and specificity, negative predictive

6:27

and obviously positive predictive values.

6:29

And then what the, what the gold standard reference was.

6:33

Main one should be obviously invasive coronary angiogram,

6:35

obviously because of the spatial resolution in there.

6:37

And what you find is that sensitivity is gonna be the

6:40

main component behind that.

6:41

The specificity is going to fall apart comparatively to some

6:45

of the functional imaging,

6:47

but obviously to invasive coronary angiogram,

6:49

it's just not gonna hold as well, right?

6:51

Just because of the line pair resolution comparatively to

6:55

how ct, um, spatial resolution is.

6:58

So on a per patient basis, coronary CTA identified stenosis

7:01

of equal or greater than 50%

7:03

with high sensitivity across everything, 85 to 99%,

7:07

if you're above that 80, you know, 85%, uh,

7:11

threshold range in terms of sensitivity, that is,

7:14

that's a, that's the positive, right?

7:16

That's the odds ratio. That's the, that's the, the p value

7:19

that we're looking for is 85% on on that standpoint there.

7:23

The negative predictive, um, takes an unfortunately, uh,

7:25

a wider interval.

7:27

So then, uh, unfortunately you can see sometimes a dropage

7:31

behind that, but essentially in terms of the sensitivity

7:34

to the negative predictive value,

7:35

but essentially it should correlate right, high sensitivity,

7:38

a very high negative predictive value behind it.

7:42

Okay, in histogram form here,

7:44

we've broken it out as you can see.

7:46

Um, and then again, using something such as FFR

7:50

for instance, we can see then

7:52

that there's a significant sensitivity

7:54

and specificity as well.

7:57

So I think I might have shown this last week, um,

8:00

because this is kind of a, an important way

8:02

of demonstrating then that technology does make a change in

8:06

terms of the improvements in spatial resolution, in terms of

8:11

how the net correlates into sensitivity and specificity.

8:14

So always be looking for the better newer technology

8:19

and seeing how it could potentially change clinically your

8:22

sensitivity and specificity.

8:24

And so, um, coronary CTA,

8:26

obviously the sensitivity sensitivity's great.

8:27

And so this number here, this is the one that I'm kind

8:30

of hinting at, is going to be a, a change in terms

8:34

of the specificity with the new photon counting systems.

8:39

Okay? So performance, uh, sort

8:42

of chatted about this a little bit in terms of, uh,

8:44

non-invasive imaging modalities.

8:46

And so this is a comparison, comparison

8:48

to non-invasive to non-invasive.

8:50

And you can see then very, very high marks here, again,

8:53

for sensitivity in terms of usage

8:55

of coronary CTA compared to everything else.

8:57

The specificity, again, non-invasively has, uh,

9:01

utilizing then 28, uh, 2008 to 2018 data, uh,

9:06

when this paper came out.

9:07

That's the drop there.

9:08

And we can explain that we've got a range of 10 years worth

9:13

of innovation change in scan technology, um, that, you know,

9:17

um, has not changed.

9:18

What's interesting is that, um, some of these, uh,

9:21

technologies haven't budged at all dependent, uh, regardless

9:26

of how, you know, how much time has, uh, occurred.

9:30

So in, if you look at invasive coronary angiography,

9:34

if you look at PET

9:35

or spec, regardless of the amount of time, the sensitivity

9:40

and specificity had not changed.

9:42

So that should give you kind of an idea, well,

9:44

what is the cost effectness of something, um,

9:47

in terms of a technology?

9:48

Now, I'm not just ct, obviously, like you, I read, you know,

9:53

PET and spec and, um, MR.

9:56

And, and, and everything else.

9:57

So it's really interesting how some areas

10:00

of our ecosystem have improved in 10 years

10:03

and others have taken a much longer period of time.

10:07

Okay, so we're coming back to the F-F-R-C-T now.

10:11

And so F-F-R-C-T is a computational fluid dynamic

10:15

that is an an, uh, uh, an evaluation

10:19

utilizing synthetic, um,

10:20

and non-synthetic data resources available on the coronary

10:23

CTA and making assumptions of

10:26

what then the flow rate limitation is before and

10:30

after a, a lesion, and we call that then the delta.

10:34

And on a number of patients, um, uh, per patient

10:37

and per vessel, um, the usage of F-F-R-C-T obviously,

10:42

um, is as an additional improvement in that sensitivity

10:47

and specificity and a lot of different, um,

10:50

diagrams have shown this, this is the number one.

10:52

And, um, and then we can get into then how that's flown.

10:56

But before we move into F FFR CT

10:58

as a novel innovative technique, let's go back then

11:02

to the usage of coronary CTA.

11:04

That is the normal, just an anatomy behind it.

11:08

And so we have some really recent data that has come out,

11:11

and that's shown then why then,

11:13

and how this translates into saving lives.

11:17

So some of the really important data

11:18

that came out is in terms of interventions.

11:21

And so ischemia trial did show some really great ways

11:25

of intervention and interventional, um, outcomes

11:28

that is into reducing major adverse cardiac events.

11:32

So that was the main, um,

11:34

endpoint was major adverse cardiac events by, um,

11:37

interventions by utilizing standard

11:39

or non-standard, um, conventional diagnostics.

11:44

The non-standard conventional,

11:45

or the non-standard diagnostics was additional use

11:48

of coronary CTA as opposed to a functional approach,

11:51

which was the ECG, um, uh, spect

11:55

and then the ICA.

11:57

So if we were to just focus on their primary endpoint, then

12:00

what if you're, if you know, standard non-standard, um,

12:04

diagnostics, but then what is the endpoint?

12:06

We found that, um, medical therapy was,

12:12

had no negative, uh, comparatively to, um,

12:16

outcome in terms of, um,

12:19

reducing major adverse cardiac events compared to invasive,

12:22

um, therapies such as, uh, stent placement.

12:24

And that's obviously there's some caveats behind that.

12:27

We can carve out many different things

12:28

for the different subpopulation groups,

12:30

but the main message is, is

12:32

that medical therapy essentially will do a great job.

12:34

So what that means is, do you really need

12:37

to invasively move into therapeutics stents, um,

12:41

or cabbage or so forth?

12:43

Well, again, caveat out

12:44

that there are subgroups were absolutely 100%, yes,

12:47

it did show improvement,

12:48

but for the majority of, uh, patients all comers, um, no,

12:51

in fact, medical therapy did extremely well.

12:54

Okay. So if you are not looking to place then, um, a stent

12:58

or make a huge intervention, then perhaps then

13:01

how is the diagnostics going to change that?

13:04

That is if you fall into the categorization of, um,

13:09

functional assessment and then invasive coronary angiogram,

13:11

how does that comparatively change then outcomes

13:14

to then the non-standard care

13:16

where you did then an anatomic approach.

13:19

And what we found was that there was a change in outcome

13:23

that is individuals who received

13:25

a coronary CTA had a reduced major adverse cardiac event

13:29

output comparatively to those.

13:31

Now, there's a lot to tease out of that al versus corollary,

13:35

but I think as we've reviewed this data, a lot

13:38

of people have assumed then have come to the conclusion

13:40

that, uh, and an anatomic non-invasive approach

13:44

reduces the potential outcome

13:46

of stent placement in the diagnostic

13:49

to therapeutic transition in the ICA room.

13:52

So there is potentially

13:54

that if you can avoid being in the cath room

13:56

for your diagnostic,

13:58

that then potentially you can avoid then the conversation

14:00

of having stent being placed.

14:02

And so there's a lot to do with that.

14:03

A a lot of informed consenting in terms of diagnostic then

14:06

to transition to therapeutic catheterization, uh,

14:09

in the informed consent, um,

14:11

in some of the other techniques.

14:13

Now, um, let's move back here.

14:15

So what does this mean for us in terms of an imager?

14:18

If we do the coronary CTA evaluation,

14:21

we are actively changing the outcome at major adverse

14:25

cardiac events for our patients, mainly

14:27

because of we're doing a non-invasive approach

14:29

to determining the degree of plaque

14:31

and the degree of stenosis outside

14:34

of the cath room potentially,

14:35

or we are highlighting the role of early plaque

14:40

diagnoses so

14:41

that medical therapy potentially can then be utilized

14:44

to reduce down the Kaplan Meier curve for those,

14:47

um, individuals.

14:48

I think that's probably what it is, we're just preventing

14:51

and catching earlier as opposed

14:53

to maybe the invasive coronary angiogram.

14:55

That's what I like to think, but

14:56

ischemia really did show that.

14:59

Okay, so let's break down the data here.

15:01

Um, and so by a per vessel,

15:03

and then also by a per patient, there was, um,

15:06

very good strong evidence that showed agreement

15:09

between the coronary CTA

15:10

and obviously the invasive coronary

15:12

angiogram and LM stenosis.

15:13

So can it do it in terms of, uh, predict, uh, of evaluation?

15:17

Yes, it can. Okay, so that's great.

15:20

And so that's what we wanted, that's

15:22

what we wanted to see in that one.

15:23

Okay, so let's break it down into, uh, one vessel,

15:26

two vessel, and three a vessel and then disease,

15:28

and then, um, concordance versus

15:30

overestimation and underestimation.

15:32

And so what we found is, is as you would expect here, um,

15:37

that the coronary CTA is, um, had very good, um,

15:43

concordance in that, um, that, uh,

15:46

that one vessel in that two vessel, uh,

15:49

and potentially that three vessel component there.

15:52

It's when we started getting into areas that, um,

15:54

are much more difficult, um, in, in terms of the evaluation.

15:58

So smaller, um, um, vessel size, um,

16:02

and then potentially then motion

16:04

and some of those other things there.

16:10

So obviously there are variables that you

16:12

and I, um, run into every single day in terms

16:15

of the coronary CTA, um, that we have to just adjudicate.

16:19

That means be able to determine, use weights in our own, um,

16:23

experience, determine if this is appropriate or not.

16:26

Um, and a lot of this unfortunately, is things that you

16:29

and I just, um, if, if we're just starting our journey into

16:32

assessing, um, a structure in the body that MO moves,

16:37

and then being able to look at the picture of the movement

16:40

as opposed to into the actual motion

16:42

and then be able to do it, these things should not

16:44

become a surprise.

16:45

One of them, of course, is penetration, uh, so morbid, B,

16:49

CD, um, irregular heart rhythms, uh, rapid heart rates,

16:52

and, uh, presence of severity of coronary calcification.

16:55

Obviously the blooming effect is something

16:58

that is exacerbated by, um, uh,

17:01

spatial resolution, uh, septations.

17:03

And so then, um, there are some technological overcomes

17:07

behind, um, that component there in the, in terms

17:11

of affecting accuracy, which is again,

17:13

the specificity portion of it, not the sensitivity.

17:16

Okay, so contraindications, again, just a, a real quick,

17:19

just over draw, um, overview behind that.

17:22

Um, and you can see those there really, it, it's nothing

17:27

different than anything else.

17:28

I would highlight then that there are some medications, um,

17:31

that are soft calls, and so we,

17:33

we can potentially get into that.

17:35

Um, essentially what we wanna brew this down to,

17:37

and this is why ischemia continues

17:39

to be such a big importance in, in our world,

17:43

cardiovascular imaging,

17:44

and then obviously cardiovascular disease is finding the

17:47

right test for the right question and for the right patient.

17:51

And so there is a lot of

17:54

work in this pretest probability, um, pretest, um,

17:58

prediction and algorithmic prediction and guideline based,

18:02

and that derives from that.

18:03

And so we have a couple different types of chest pain.

18:06

Um, the,

18:07

and these terms obviously have changed, uh, recently

18:10

with the new, um, guidelines, but, uh, cardiac

18:14

and non cardiac, um, angina.

18:16

Um, and then, um, you know, angina that is, uh,

18:20

potentially then, um, you know, exacerbated

18:24

by other conditions.

18:25

Uh, so we can get into that,

18:27

but we really wanna find the right patient, um,

18:31

for this test or the other way around,

18:33

use this test for the right patient.

18:34

And so there's a couple different things

18:35

that we'll get into this caveat on this.

18:39

The evidence, again, for most in all comers, um,

18:42

is an anatomic approach, and that's a one a, um, evidence.

18:47

So this absolutely has its place

18:50

among all chest pain comers,

18:51

but you know, we then have the opportunity to dial down

18:56

to the right patient population.

18:58

Are they utilizing this test, again, those contraindications

19:01

and soft, um, concerns that we had before,

19:04

and then how that would affect then our, um, our accuracy,

19:12

Uh, to, to draw it out of this essentially is

19:15

as you get older and there's more calcification, then, um,

19:18

our, our prob pretest probability drops off

19:21

at being as an accurate test.

19:22

And that's essentially what these, um,

19:23

trials had indicated in the past here.

19:27

Okay? So not gonna draw too much into this other than, um,

19:31

that there are some, um, biomarkers

19:35

that are extremely impo important.

19:37

And so, um, the usage of some of these biomarkers

19:40

that we've, I just previously hint at F-F-R-C-T, um, plaque,

19:45

um, and some of these other ones

19:47

that are peri coronary can be utilized as well.

19:50

Okay? Pretest probability based on calculators.

19:54

And these calculators take on non-imaging calculations of,

19:57

um, sex age, uh, the type of symptoms and risk factors.

20:01

All these can be fed into an algorithm.

20:02

The algorithm can then be useful in determining then a

20:06

pre-test probability.

20:08

But basically with the low dosage

20:11

and with everything else, I don't think we're in the age

20:14

of pre-test probability anymore.

20:16

I think, um, coronary CTA should be consideration

20:19

as your frontline test for essentially everything.

20:21

But here are the numbers, um, in, in, in, uh,

20:25

in the agreement in terms of, uh,

20:27

confidence interval and so forth.

20:37

Okay? So identification of low risk, um,

20:42

in versus high lifetime risk.

20:44

Uh, one of the things that we, we can use this for is

20:48

what we call the warranty period.

20:50

And you may have heard about this.

20:52

The warranty is essentially that the, um,

20:55

pathologic accumulation of plaque calcified

20:58

and noncalcified in your coronary arteries take some time.

21:02

And so if you have a flash evaluation of the anatomy,

21:05

then you can give a warranty period of how, um,

21:08

those coronaries may not be involved in future

21:11

or symptomatic, um, anginal, um, uh, events in the future.

21:17

And so I, I find that, um, what this essentially means is

21:20

that if you don't have much plaque

21:23

and you've already seen it anatomically,

21:25

then you can just say then any future concerns of

21:28

of chest pain are not related to the coronary arteries.

21:30

And so that's what this, this essentially,

21:32

this histogram is trying to show.

21:34

And this correlates extremely well, as you can tell,

21:37

it becomes more 10 more tenuous

21:39

and more difficult to make those kind of assumptions, um,

21:43

in the future in terms of, um, increased stenosis

21:45

because of the amount, um, of vulnerability

21:48

that these plaques are undergoing across time

21:51

and across situations.

21:54

Okay? The prognostic

21:55

and advantage, um, from this Kaplan-Meier, you can see then

21:59

that if you had no coronary artery disease, uh,

22:02

essentially there's no risk of coronary artery disease, um,

22:06

relating in terms of relating then

22:08

to your major adverse cardiac events, uh,

22:10

whereas obstructive disease

22:12

and non-obstructive disease, um, have, um,

22:15

different Kaplan mires.

22:16

So let's focus on this yellow line here.

22:18

Essentially what we're trying to say here is, is

22:21

that if you make the call

22:22

of obstructive coronary artery disease, you are putting

22:25

that person in the, in the spiral, in the loop, in the,

22:29

in the component of let's continue to value this individual.

22:32

Now, keep in mind that the pathology of accumulation

22:36

of plaque in the accumulation of, um,

22:38

disease is a long-term event.

22:41

But if you have disease already there, the disease

22:43

that's in there is vulnerable.

22:45

And so we made some assumptions, um, on the lecture, uh,

22:50

last week and then in this lecture in about two hours,

22:53

I'll talk a little bit more about this,

22:54

but features that can make your disease,

22:59

whether it's obstructive

23:00

or not move into that, um, that there's a corollary

23:04

and causative from corollary

23:06

to causative is based upon those, um, those features

23:10

that we talked about in terms of the plaque.

23:11

And so there was a four of those features,

23:13

we'll talk about 'em a little bit,

23:14

but basically if you've said obstructive disease, so 50%

23:18

or above in terms of the stenosis

23:20

or high risk plaque features, then you are saying,

23:23

let's watch that individual a little bit more.

23:25

Whereas if you get to that individual in terms of 25

23:29

to 49% luminal stenosis, um, you know,

23:32

no high risk features,

23:34

then you are essentially saying the coronary arteries are

23:36

not a big deal, and you can use that for several years.

23:40

Okay, so what was the follow-up time

23:43

and the prognostic advantage?

23:44

Well, it depends on the type of exam, um, trial

23:47

and then what were the inclusion

23:49

and, um, exclusionary, um, components behind that.

23:53

I like confirm. I think that, um, was more of a,

23:55

a newer data, uh, that came out.

23:58

And, uh, so three years is probably a good call there.

24:01

I think some of these other ones here that, um, uh,

24:05

basically you can see the, the total population here.

24:08

Um, but I, I think some of these are a little, um,

24:11

not correct and mainly

24:12

because I'm seeing different changes in the coronary

24:16

arteries, uh, due to recent events

24:17

that we hadn't seen before.

24:19

Um, so I don't know if this amount

24:22

of follow-up data is something

24:24

that you should cite in your report

24:25

and say that, you know, coronary to clean, no need

24:28

to see you for another 11 years.

24:30

I think the three to five years probably

24:32

where most people are gonna lie.

24:33

And so we'll see that. But basically

24:34

what you're saying you're seeing here is that

24:37

what is the event rate?

24:38

If you did call it at that period of time

24:41

and less than 1%, you and I will absolutely take that.

24:44

Um, nobody would find you out of standard

24:47

of care if you were to indicate then, you know, three year,

24:50

um, follow up for a coronary CTA,

24:53

you know, and everything's fine.

24:56

Okay, event rate annualized, um, across populations, again,

25:01

um, based on the type of modality, the main thing again

25:03

to look out here is how well

25:06

the coronary CTA did in terms of the other modalities.

25:10

And so obviously the modalities

25:12

that are not an atomic base are gonna have a worse, um,

25:16

where, uh, histogram bar comparatively.

25:19

So we, um, we obviously don't want to lean on those as much.

25:24

So if we aggregate all of what we've talked about so far,

25:28

anatomy first, anatomy has preventive as well as prognostic

25:33

determinants into major adverse cardiac events.

25:36

A lot of that is in terms of the high sensitivity

25:40

and negative predictive value.

25:42

Those things are coupled to

25:44

and directly with spatial resolution.

25:47

The more you can see, the more you can say.

25:50

And so I think about this in terms of

25:53

what modalities in this

25:56

bar graph talks about this very cleanly

25:58

and well, what modalities are un undergoing the greatest

26:01

amount of innovation and improvements.

26:04

And so if you look at the improvement of technology

26:08

as a tool, prognostic tool tool in terms of itself,

26:13

you want to utilize the, in, uh, the innovation

26:17

as your leverage to get to the better type of examination.

26:22

And so, um, that's really, uh, what you and I

26:25

and everybody could do is we can say, what type

26:27

of examination or tool has undergone

26:29

the greatest amount of innovation?

26:31

Well, that's probably gonna be a better tool. Tool, okay?

26:36

So plaque burden is obviously one of those things, um,

26:38

that we've talked about in terms of, um, risk.

26:42

Um, and so you can see then the incremental improvement, um,

26:46

advantage there, that is,

26:47

if we can tease out the plaque burden, um, there is, um,

26:51

obviously an anatomic finding behind that,

26:53

but it also has, as you can tell, a,

26:56

a hazard risk associated with that.

26:58

Um, the other risk factors that are combined into, um,

27:02

here are those, um, family history, social history, smoking,

27:06

non-smoking, diabetic diabetes,

27:08

and so forth that are associated with it.

27:10

So we can see then that, um, that there is absolutely some

27:15

marginal improvement in the usage of plaque burden, um,

27:17

to determine then disease.

27:19

So if we could quantify it out or at least say it.

27:23

Okay, uh, we'll skip this one here

27:26

'cause we sort of chatted about ischemia already.

27:30

Coronary CTA, how does it directly, um,

27:33

move into improving outcomes?

27:35

Uh, it's essentially a 50% reduction in coronary vascular

27:37

disease and mi

27:39

and that's what that kapler mind, uh, curve, um, in, uh,

27:43

delta is right along in there.

27:45

So we have now evidence that shows that the utilization

27:49

of coronary CTAs by patient

27:51

or by population improves outcome.

27:54

That is, it's a reduction of myocardial infarction

27:56

and the overall reduction

27:58

of coronary heart disease related deaths.

28:04

So it is the first line test one a,

28:06

it is the cath lab gatekeeper.

28:08

I think we've sort of chatted about that in terms of how

28:11

that could affect, um, the outcomes in terms of, um,

28:15

major adverse cardiac events, risk stratification,

28:17

and prognostic capabilities.

28:25

Uh, any questions related to that one so far? No.

28:30

Okay. So I have one more that I'm gonna do a quick little

28:36

thing on if you'd like.

28:38

Does anybody have any questions so far on the,

28:41

the literature, the trials,

28:42

and in the, the, the talk portions of behind this

28:47

before we go into one more lecture?

28:50

Okay. So hopefully we're sharing this one here. Okay.

28:52

So let's talk a little bit about the novel technologies.

28:56

Um, the things that are constantly gonna improve.

28:59

Oh, looks, I haven't got a question here.

29:00

Role of CT angio in pediatric. Oof, I love it.

29:04

Yes, you're moving into the right direction here. Why?

29:07

Because there's a populational crisis in terms of per

29:11

cardiovascular, um, issues, right?

29:14

Obesity, hepatic steatosis, um, demineralization, uh,

29:19

lack of, uh, vitamin D

29:21

and all those have cardiovascular,

29:22

no neuro cardiovascular related things.

29:25

So where is the role of coronary angiogram in terms

29:27

of chest pain for that population?

29:29

But in terms of then the overall things that we're seeing

29:31

as risk factors associated into achieving for, um,

29:35

CBD related, um, disease?

29:38

Great question. I wish I could say that it, um, that it,

29:43

the, this data falls into that one A for the, um,

29:48

pediatric population, but it does not.

29:50

And why? Because nobody is willing to dose kids.

29:53

Now that is, um, that has to do with the informed consenting

29:58

and with the guidelines considering a difference in the,

30:04

the informed consenting capability of a child to an adult,

30:07

even though the BMIs are the same,

30:09

even though the penetration, the spatial resolution, um,

30:13

is the same there, uh, there potentially is then, uh,

30:17

a consenting to, uh, for a child

30:20

that is markedly different than an adult.

30:22

Now, the other thing to consider is what are the life years?

30:26

Um, and the interval, I would argue

30:29

that a child has more, um, population risk value.

30:34

That is how many quality

30:36

or, um, um, quali, you know, the Q-A-L-I-Y,

30:40

that many amount of years of valuation economically and,

30:43

and then socially and then ethically to, um,

30:47

to the population compared to an adult,

30:49

because obviously they should be living longer.

30:51

That should then be a considerate to then

30:55

coronary evaluation.

30:56

Now, let's be honest here, would,

30:59

do you expect coronary disease in a 13-year-old?

31:03

No, you expect some of the other things

31:05

that potentially are attributed,

31:07

so would then the number needed to treat that is how many

31:11

treated in avoided, um,

31:15

pediatric coronary related disease results in, in output?

31:20

It's gonna be a very high number.

31:22

So mainly

31:23

because we don't have as many children yet

31:26

with coronary artery disease.

31:27

Now that's gonna be a very difficult time in our world, um,

31:29

population in sister, when we do get

31:31

to there, is it gonna get there?

31:33

Oh, gosh, I hope not, but that's a great question.

31:36

So in terms of how we would look at this as an imager,

31:40

I would not turn away an individual who is at

31:43

that 16, 8 18, 20 year, you know,

31:48

um, age as long as a informed consent.

31:52

And as long as there is then a, um, a correlative in the BMI

31:55

and then the penetration so forth, do I expect that

31:59

to be a low risk exam?

32:00

Absolutely. Now, how can I do this?

32:02

I am leveraging CAC score evaluation.

32:04

So now I'm doing coronary calcium scores on the daily

32:08

of individuals who are there in their twenties and thirties.

32:10

And I'm finding disease, I'm finding calcified disease,

32:13

which should be a later biomarker compared

32:16

to noncalcified disease.

32:18

So I know it's out there,

32:19

but I think the number needed

32:20

to treat is gonna make this an expensive endeavor.

32:23

And because of the, um, dosage concerns,

32:26

which are not necessarily concerns

32:28

anymore, that's gonna be another thing.

32:29

But I think more importantly,

32:30

it's gonna be the informed consenting.

32:31

So hopefully that answers your question, but great question.

32:33

I love it. Okay, so let's talk a little bit about, um,

32:36

what is on the horizon here.

32:38

Again, this busy slide sort of talks about

32:40

where coronary CTA, um, plays a role into different types

32:44

of acute chest pain, known or unknown.

32:46

Um, and so we won't really have to worry about that one.

32:54

Okay, moving on. Moving on.

32:58

Okay, so let's talk about high risk plaque features

33:00

here, um, very quickly.

33:02

So high risk plaque, what is this?

33:04

And so we chatted a little bit about this.

33:06

This is the amount of plaque that occurs in, in

33:09

around the vessels,

33:10

and it occurs in, there are three layers, right?

33:13

So there is the endothelial layer, this, the,

33:16

the mid layer, and then the roal layer.

33:17

So this, um, vaso Zora where there is blood vessels, um,

33:22

there's arterials there, there's smooth muscle in there.

33:25

Those are highly perfused, highly, um, regulated areas

33:29

of the vessel that have monetization and surveillance.

33:33

That is, um, immune cells and, um, items that are moving

33:36

and directly working together to, uh, keep

33:39

that working well.

33:41

And they are highly attuned.

33:43

That is the nitric nitric oxide, um,

33:47

concentration in one portion of that vessel comparatively

33:49

to the, another portion of that vessel,

33:51

maybe five millimeters down the road, um, is very,

33:54

very discriminatory and very heterogeneous.

33:57

So in that milieu of, um, of an ecosystem here,

34:02

we have inflammatory changes that can occur,

34:04

inflammatory due to the cells being involved in there,

34:07

or items being, um, exposed.

34:10

Um, and so in the conventional way of evaluating it,

34:14

what this means is that there's too much of a good thing,

34:17

such as triglycerides, cholesterols, um,

34:21

and so forth that potentially are just within the blood pool

34:25

and they are seeping through

34:26

or causing a damage to the endothelial layer

34:29

and then seeping through and being absorbed

34:30

or, um, placed into storage

34:33

or, uh, causing them the inflammatory changes.

34:36

You can see as in terms of remodeling an accumulation in

34:40

that portion of the vessel, there is some very good evidence

34:43

that indicates then that this has to do with vi's, um, um,

34:47

principle discoveries that, um, at areas of, um,

34:52

high resistance, um, with low velocities, so stagnation

34:57

and then, um, coag, coagulability, hypercoagulable states.

35:01

Um, so inflammatory states is potentially then

35:03

where you're gonna see this occur.

35:05

And what do you find when you are

35:07

reading your coronary arteries?

35:08

Um, so far it seems to be at bifurcation points, it has

35:11

to be at areas that are high flow or low flow

35:14

or areas prior to, um, or at high resistance.

35:18

And so it's not uncommon then to see, that's

35:20

where we're going to find then the deposition of plaques.

35:24

There's a lot more science that needs

35:25

to be done into evaluating this area here from a

35:28

pathophysiological standpoint.

35:30

But, um, if we were to compare, you know, populations,

35:34

essentially the ones that accumulate, um, uh, more

35:37

of this in their blood pool seems to be more at risk,

35:40

IE the, uh, lipid, um, theory, uh,

35:44

and cholesterol theory behind disease, that more of it

35:46

that you have floating around, um, potentially then

35:49

that's the cause of nature behind this.

35:51

Uh, the potentially there, there are some very good evidence

35:53

for that and strong, strong associations,

35:56

but there's potentially more behind that.

35:58

So I don't want to put all my eggs in that basket.

36:01

Um, funny because eggs have a lot of cholesterol, uh,

36:04

but you know, 80%

36:06

of your cholesterol is created by your liver.

36:08

It's endogenous. Um,

36:09

and several very important mechanisms of your body

36:13

at several different times of, of, um, an animalism.

36:18

So that is the functional growth of from, for instance, baby

36:21

to then, um, to toddler

36:23

and then, um, adolescent and then so forth.

36:26

Those functional areas

36:27

of an animalism need more cholesterols need more

36:30

of those things components on there.

36:31

So it's not, um, a,

36:34

a linear regress curve in my personal opinion.

36:36

And we've seen this with the u-shaped, um, odds ratios

36:39

of too low

36:40

or too high of cholesterols both le LDLV, LDLs and HDLs.

36:44

Okay, so let's move on to this area here.

36:47

What are some morphologic features of some of this plaque,

36:50

um, and, and so forth.

36:51

And what we find is that positive remodeling the IE,

36:54

that 1.5 diameter greater than another area here

36:58

that's positive, um, spotty calcifications

37:01

where there are components of calcified material

37:04

that's being turned around, turned over, um,

37:06

the low attenuating plaques,

37:07

and you can see the examples around the here

37:10

and then the napkin ring

37:11

where we have then an accumulation in a

37:14

curva linear deposition.

37:16

The, uh, core, as you can see is made up

37:19

of various densities, um, from a low attenuating core to,

37:23

um, calcified core

37:24

and then fibro fatty fatty, which is the end stage typically

37:28

of any disease scar.

37:30

Um, but that also applies in, in the vessels as well.

37:37

So the Kaplan Meyer obviously is that, um, the presence

37:40

or absence of plaque makes a huge, uh,

37:42

determination in, in, in death.

37:45

And so, um, adverse plaque in this case, um, is associated,

37:49

uh, you can tell with this delta with a significant, uh,

37:52

degree of, um, mortality associated with it.

37:55

And we can see that across, um, time, you know,

37:57

from two year mark to the, um, um, adverse plaque.

38:01

Um, so if you had it, um, you know, at, uh, you know,

38:05

two year versus, um, um, you know, five year,

38:09

and then what that does in association

38:11

with the luminal stenosis.

38:12

So this is a nice histogram that shows then

38:15

luminal stenosis obstructive 50 to 69% stenosis

38:18

and above, and then plaque.

38:20

And so if we took those two biomarkers

38:22

and we plotted them in our report

38:25

or coronary CTA report, we then would hopefully be able

38:28

to catch these groups of individuals here.

38:31

So it's kind of funny that the CAD

38:32

rads, that's exactly what we do.

38:34

We talk about plaque and we talk about AL stenosis, okay?

38:38

Um, the usage of coronary CT

38:40

and high risk plaque features as a combinator, um,

38:45

evaluation of biomarkers that we can see

38:48

with any coronary CTA is extremely important.

38:51

And so that's what we're talking about here.

38:52

So the significant stenosis in high risk plaque,

38:56

so obviously what we don't want is a combination of two,

38:59

and we saw that in the prior histogram.

39:03

Uh, low attenuating plaque is a very interesting thing

39:06

and by itself.

39:08

So we, I think we saw a case of this, um,

39:10

this la this week here where we had a, um, CAD reds one,

39:15

so a less than 24% stenosis,

39:17

but we had a P two, which is a significant amount of plaque

39:21

that was, and then that was also low attenuating.

39:24

So we inverted it, right?

39:26

And what was interesting, uh,

39:27

you can see from this Captain Meyer here, is

39:29

that the low attenuation burden is a big deal, right?

39:32

It appears to be a big deal in itself, a distinct

39:37

and discrim marker for disease.

39:39

And so I find that to be the most important thing.

39:43

When did that come out? 2020.

39:44

When was our spatial resolution able to post to, uh,

39:48

you know, 2016?

39:49

2018 is when the, the, um, um,

39:54

you know, the secondary, uh, the second degree, um,

39:57

CT scanners started coming out, right?

39:59

I mean, when we were seeing like 16 centimeter panels, um,

40:03

you know, resolution one heartbeat acquisitions, you know,

40:06

that was around that 2016 time period.

40:08

Now we're eight years past that.

40:09

And so what are we seeing now?

40:11

We're gonna see even higher resolution,

40:13

even higher performative plaque characteristic evaluations,

40:16

and that's gonna probably make this number

40:19

and this delta increase even more.

40:24

Okay, so let's take a quick look here.

40:27

Patients not taking statin.

40:28

Statin obviously has a role in the pathophysiology

40:30

of laying down cholesterol depositions within certain areas.

40:35

I think it's more nuanced than that,

40:36

but, um, that's a very good way of looking at it.

40:38

And then patients taking the statin, you can see then

40:41

that the degree of stenosis, which is characterized

40:44

by the plaque deposition, um, has, uh, has, uh,

40:48

changed markedly.

40:50

Interestingly, statins also tend to stabilize plaque.

40:54

And so sometimes you'll see the, the coronary calcium

40:58

quantification go up post statin use.

41:00

And so, um, that's kind

41:02

of an interesting nuance that you wanna be aware of.

41:07

Okay, so coronary CT and fractional flow.

41:09

What are the combinations behind this

41:11

and what are the considerations?

41:13

A lot of this is based upon invasive fractional flow,

41:17

which is the delta behind pre and post, um, lesion.

41:21

And how then if we measure the pressure,

41:23

which is then related to the flow,

41:25

we can then determine then, um, if there is, uh,

41:28

downstream flow that is, um, worrisome.

41:32

And so, um, FFR guided, um,

41:35

percutaneous interventions versus just the anatomic

41:38

guidance, we can see then that the, uh,

41:40

Kaplan Meier does show then a significant,

41:43

uh, degree of change there.

41:44

So FFR guidance is important.

41:47

The problem is if you are going to plug up, um,

41:50

a already an occluded, uh, lesion,

41:53

that obviously has risk and concerns.

41:56

Um, so if you can do it non-invasively

41:59

and it correlates extremely well with this, then

42:01

that would be, uh, an extremely additive feature, right?

42:04

So let's go with that for just a second here.

42:09

What we find then is from a typical coronary CTA angiogram

42:13

is that we can then determine utilizing computational fluid

42:16

dynamic, which is the evaluation

42:19

of flow based on attenuation, council attenuation

42:23

starting here all the way here.

42:25

What is the dynamic, um, probability assessment throughout

42:28

that tree, that vascular tree.

42:31

And so then the iterative, um, evaluations are then, um,

42:37

remodeled over and over,

42:38

and we're able then to acquire then a synthetic, um, dataset

42:42

that we can model

42:44

that then works extremely well comparatively to

42:47

as if we were gonna do it invasively.

42:49

So we use the same, um, F-F-R-C-T utilizes the same pressure

42:54

of the coronary to the pressure of the aorta guideline here,

42:57

which is that if it is a 0.8, um, degree difference, um,

43:01

so it's not one to one,

43:03

but it's a little bit less than that 0.8, um,

43:05

or less, then that is considered then limiting flow.

43:09

So 0.8 is your number of choice, 0.7.

43:12

If you wanted to be even more sensitive behind that, um,

43:15

you know, is, is concern here.

43:17

So we can derive then that number,

43:20

the F-F-R-C-T peak flow, um, um,

43:25

from the, from the dataset.

43:27

And so this is a really important thing.

43:28

What does that mean in terms of prognostic?

43:30

And then, uh, and, and how that changes then the sensitivity

43:34

and specificities that is, if we were

43:36

to compare the non-invasive then

43:38

to the invasive, what does it do?

43:39

Well, it's this blue thing here.

43:41

It gets us higher to that in that au

43:44

where we're high top, high, right?

43:45

Where we're all the way up here in terms of, um,

43:48

that one-to-one specificity and sensitivity.

43:51

So way higher better than anything else

43:54

that we have available in terms of

43:55

that comparatively to ICA.

44:00

And as you could imagine, the Kaplan Meyer, um,

44:03

differential is significant.

44:05

And so there's a change in the major adverse cardiac event

44:08

rate when utilizing FFR CT

44:12

as you can see here, and being able to evaluate

44:16

that individual, um, for that less than 0.82, the 0.8,

44:21

it obviously corresponds to

44:22

what we had seen with that earlier.

44:24

Um, Kaplan-Meier with um, f uh, IFR invasive,

44:29

uh, fractional flow reserve, um, and, and PCI.

44:33

So this is exactly what we wanna see

44:35

trending in the same way.

44:37

Okay. Um, while shear stress, this is another, um,

44:41

very interesting modality that utilizes, um,

44:43

the relationship of, um, deposited energy into the system

44:48

and how that could either inflame, degrade

44:51

or reduce the capability of the walls to elastically respond

44:56

to, um, to flow, being able to give more flow,

44:59

less flow depending on what the situation is at real time.

45:03

And so we can then do this, um, with a kilo pascal.

45:06

We can do this, um, through a couple different ME measures,

45:09

but essentially the idea behind here is that we are trying

45:11

to identify less movement or less sheer stress capabilities.

45:16

So there's an, um, an ultrasound way,

45:18

there's a cardiac MR way,

45:20

there's also a CT derived way that we can do this too.

45:26

Uh, while sheer stress, um, in terms of how it works in,

45:31

um, and, um, in data comparatively

45:34

to something like F-F-R-C-T, essentially the wall,

45:37

your stress, um, if it's, it is positive here,

45:41

it should correlate to then, um,

45:43

to a dramatic change in the velocity pre and post.

45:47

And so that's what we're finding here then is

45:49

that there should be less elastic motion, um,

45:52

because there's a higher pressure going through there.

45:58

Other biomarkers have been looked at if you're looking at

46:00

the coronary, um, artery.

46:02

Um, so we've looked at the flow within,

46:04

we've looked at obviously lumal stenosis

46:06

and then the, um, morphology

46:07

of plaque deposition in the layers of the,

46:11

of the coronary artery.

46:12

We've now looked at, um, the flow, uh, through F-F-R-C-T

46:16

and then the sheer stress.

46:17

So the, how the wall accumulates, um, a capability

46:20

for elasticity or not.

46:22

So this here is talking about what is going on

46:25

around the vessel and is that important?

46:28

Well, the idea behind this is that there is a crosstalk

46:31

and that is that, um, structures nearby each other,

46:34

so are supportive, uh, in terms of, um, being able

46:38

to provide signaling, um, and are protagonistic

46:42

or antagonistic to then working, um,

46:46

and able to then provide signaling.

46:48

So what we find here is that the fat changes density

46:52

that is becomes more EDUs when there is a situation that

46:56

that is occurring within the system

46:58

in the coronary arteries.

47:00

And so what we find is essentially is that the relationship

47:03

of lipid to, uh, water is changing in terms of

47:08

how much accumulation of plaque

47:11

and then, um, uh, luminal stenosis and sentimental events.

47:15

And so some really nice work done out of, um,

47:17

Oxford was showing then how you can real time, um, do, um,

47:22

quantitative assessments of that peric coronary, um, fat

47:26

and be able to do then an attenuation, um,

47:29

evaluation quantitatively or from an index.

47:32

And so it's very interesting

47:33

and you can see that this low inflammation state

47:35

to a high inflammation state.

47:37

How then, as you can imagine edema is then the biomarker

47:42

of choice that we're looking at here

47:43

and how we can then be able to see that in terms of, um,

47:47

housefield unit change.

47:48

And that's where that, um,

47:49

that's utilized in this image analysis, uh, matrix.

47:55

So we can create then very nice trees of evaluation

47:58

and then be able then to do, um, a heat map evaluation

48:01

by pixel and be able then to find them the areas of

48:04

that correlate into high edema and low edema.

48:08

Um, and that's a very fantastic, um, usage of a,

48:12

a coronary marker that's sitting there.

48:15

How does it relate? Well, it's extremely well, um,

48:18

to then high risk plaque features.

48:21

And as you can see then that in this where the, um, uh,

48:25

fat attenuation index was very high, um, in how that related

48:29

to high risk plaque features is that we had then, uh,

48:32

cardiac mortality also increase as well.

48:35

So in obviously if you had a low FAI

48:38

and no, um, high-risk

48:39

plaque features that there's no disease.

48:41

So it's a really, really exciting additional marker, um,

48:45

that's utilized, uh, the, the system of that there is a

48:50

more than just the, um, discrete elements here

48:53

of coronary disease and coronary coronary luminal stenosis.

48:56

And why is this important?

48:58

Well, what is an invasive coronary angiogram? It's a lumino.

49:01

You are able to see in very high spatial resolution

49:05

what is occurring within the lumen.

49:07

Unfortunately, you cannot see what's in the vessel, which is

49:11

where, um, the use of ultrasound, for instance, in

49:14

that methodology can work, um, or CT

49:17

or in the case what's around the vessel,

49:18

which in this case would then be the FAI.

49:21

And so all those types of biomarkers can be, um, obtained

49:24

through a ct.

49:28

So the way forward first line test coronary CTA, absolutely,

49:32

absolutely great way plaque analysis, ffr, ct

49:35

and the new emerging factors

49:37

and, um, novel biomarkers to include, um, FAI, um,

49:41

shear stress, um,

49:42

and then obviously profusion in the myocardium.

49:45

So, um, this leads us into thinking about

49:49

what do we do with all this technology?

49:51

Well, one of them is that just

49:52

because we can see it doesn't mean that we can do something

49:55

with it in terms of the clinical guidelines

49:57

and the clinical therapy,

49:59

but what I want you to kind of consider is

50:03

what modality is highly innovative, is continually to change

50:08

and increase, and is that where you want to be

50:10

or do you not wanna be there?

50:11

And so for me, my answer is yes, I wanna be there.

50:13

Yes, please, please. I wanna be there

50:15

and I wanna be able to know these things so

50:17

that I can be able to offer them.

50:18

And so I personally was working with, um, the FAI

50:22

and some of this per coronary fats

50:24

and some of these other components in plaque analyses from

50:26

20 16 20 18 when it was offered through some,

50:29

um, software vendors.

50:31

But that doesn't mean that it's translated into guidelines

50:34

or into my reports, it just means that I'm aware of

50:36

that the entire system.

50:37

So as you, as an imager as you're moving along,

50:40

what I want you to consider is, is that these biomarkers

50:43

that you were evaluating on your exam, on your image,

50:46

on your, uh, in putting down your report,

50:48

they will be there whether you mark on them or not.

50:52

And so there are some really interesting things of,

50:55

of working with your colleagues to determine if,

50:57

if this is a marker that you want to continue to work with

51:00

and to figure out as being useful in a

51:02

prognostic or long-term way.

51:04

And so I worked with a couple other, um, places

51:06

and we've decided to do some of that stuff

51:09

and it's actually come out to be really useful.

51:11

As you had mentioned in your, uh, question about the role

51:13

of, um, CT angio in pediatric populations.

51:16

There are some very definite biomarkers in the pediatric

51:19

population that we now watch

51:20

because the field of view is so important that allows us

51:24

to watch 'em in the pediatric population.

51:27

And so those are very exciting things.

51:29

Anyway, um, I want to thank you for your time, um, and,

51:32

and for, uh, your opportunity for listening to this.

51:36

So I've got another question here, sir.

51:38

What is your opinion regarding optical coherence, OCT

51:41

and coronary angio, specifically plaque evaluation,

51:44

coronary dissection?

51:45

It's a fantastic high spatial resolution,

51:48

but with anything that has a high spatial resolution such as

51:51

that, immense detail, there is a, an inverse relationship

51:55

to the penetration, so how deep you can go with it.

51:59

And then also what is the, um, the invasiveness

52:04

or the capability behind it.

52:06

So those trade-offs are areas of innovation.

52:11

I've logged OCT for a very long time.

52:13

I've tried to get involved in that in terms

52:17

of using like F-F-R-C-T-A surrogate, so it's not OCT

52:22

invasively in the coronary arteries,

52:24

which would not be appropriate,

52:25

but it's a surrogate marker of OCT results

52:29

that can be acquired conventionally

52:31

and at the edge of ct, um, capability and resolution.

52:36

So absolutely, I think it's a great way,

52:38

it's the highest spatial resolution you can get

52:40

much more than ultrasound.

52:42

It does provide then, um, levels of detail

52:44

that are within the normal electromagnetic spectrum,

52:48

but also things that are beyond that.

52:49

And why that is important is

52:50

because we know from some novel, uh, research that

52:56

light spectra that is outside

52:58

of the electromagnetic spectrum, so near infrared redd, um,

53:01

infrared ultraviolet

53:03

and so forth, they play a role in disease

53:06

and in pathology as well as health.

53:08

And so if we can see, see some of that with other mod, um,

53:12

modalities, then potentially we can then comment on it

53:15

and then be able to make it.

53:16

So, oh, I'm the big fan of it.

53:18

I just haven't been able to translate that in terms

53:20

of a surrogate or in terms of a marker yet.

53:23

But, um, I would love to use it more for the,

53:26

like I mentioned, the electromagnetic spectrum portions

53:28

of it that we can't quite see right now, um, in terms of,

53:33

um, our modalities.

53:34

But that's a great question. Love it.

53:36

Any other questions you guys have?

53:38

Um, hello? Yes.

53:41

Yeah, hi. Actually in that, uh, uh, case evaluation,

53:45

you have mentioned that, uh, uh, to rate P one,

53:49

P two according to plaque distribution.

53:51

So I was just, uh, uh, wondering that on the software,

53:55

is there an option to see the calcium score

53:58

or anything so that we can write it in the report

54:01

or that whether it's P one, P two,

54:03

or Yeah,

54:06

That's a great question because well, so my answer is no.

54:11

I, um, the, the coronary CTA should not technically

54:14

have a CAC score.

54:16

Um, it should be a luminal

54:18

and plaque evaluation as opposed to the calcium evaluation.

54:21

Calcium has a very, very stringent,

54:24

very clear role in risk prediction.

54:26

Once you get into symptomatology IE chest pain, then we,

54:31

we, um, we should not be using a calcium

54:33

because it doesn't work as well in terms of that dataset.

54:37

Now, do we do a calcium

54:39

with a coronary CTA acquisition in some,

54:42

in a lot of my centers, yes.

54:44

Um, we do. And some of my centers, no, we don't.

54:47

So I, unfortunately I say all that to just caveat

54:49

that typically a, a CAC score is not part

54:51

of the CTA acquisition.

54:54

Now what can we do in terms of quantitative

54:58

or qualitative assessment of the plaque

55:01

by utilizing the CAD rads and then what, um, the software

55:05

or what our eyes are doing, the cad rads uh,

55:09

reporting says you can do qualitative or quantitative.

55:13

So a qualitative would be a, a system that is agreed upon

55:17

by you and by your peers that says there is a mild,

55:20

moderate, or severe amount of plaque, um, burden.

55:25

The distribution that is, how much of it where it is,

55:28

is it all plugged up in the LM

55:30

and the proximal, you know, osteo LID

55:32

or is it all at the distal aspects of the LCX?

55:35

That is a completely different thing

55:36

that it does not talk about,

55:38

which will be needed in the next iteration, of course,

55:41

as we say then there.

55:43

But you can see then the problem right now is

55:46

that it's CAD rads 1, 2, 3, 4, 5,

55:49

and then it is a, uh, a P one, two,

55:52

and then there are the modifiers, right?

55:54

So then we have all the different modifiers.

55:56

So we're getting into a, an alphabetical

55:58

and numerical soup

56:00

where we're constantly then adding more to that.

56:03

And while that level of, um, we call 'em loins,

56:07

L-O-I-N-C, while those levels of, um, being able to

56:12

objectively measure a, a characteristic

56:14

and then be able to send that out,

56:16

and then it should hopefully be used for objective measures

56:19

and then algorithm training, it, we lose a little bit

56:22

of our soul and herself, right?

56:24

I mean it, to do a soup like

56:25

that is just too much craziness.

56:28

So what I would suggest for you to bring it all back

56:31

to your question is, um, mild, moderate,

56:34

extensive amount of plaque.

56:36

Um, I, I think cat rats does say something a little bit

56:38

different in terms of their qualifiers, um,

56:41

or decide to use a, a system, a software system

56:44

that does break down the plaque into a quantitative system.

56:50

Those are costly,

56:51

those can potentially then have inter radiology

56:54

or inter imager variability.

56:57

So I try not to do that, but, and so to make it just three

57:00

or four words is probably the better thing.

57:03

I hope that answers your question.

57:05

Thank you. Of course.

57:10

Well, terrific. If we don't have any other questions, Dr.

57:13

Lorenz, thank you again.

57:15

And just a reminder here, in about one hour we'll be, uh,

57:18

coming back to do, uh, week two case review again with Dr.

57:22

Lorenz. So if you have any questions, then just let us know.

57:26

Uh, Dr. Lorenz, thank you,

57:27

and we will see you in about an hour.

57:30

Thank you. Everyone. Can't wait to see you all again.

57:32

Um, um, yeah, I'm gonna get a quick lunch

57:34

and then we'll be right back at it. Okay,

57:36

Thanks again. Bye.

57:37

Report

Faculty

Giovanni E. Lorenz, DO

Cardiothoracic Radiologist

San Antonio Military Health System (SAMHS)

Emilio Fentanes, MD

Director of Cardiac Imaging, Department of Cardiology

Brooke Army Medical Center

Tags

Cardiac

CT